Polyhydroxyalkanoates (PHA) can be generated by the products of an excess sewage sludge fermentation process. An efficient method reported is to enrich a PHA-producing community in an aerobic feast/anoxic famine enrichment strategy. This work evaluated the effect of different C/N feed ratios of 3.5, 2 and 1 g COD/g N. The study was executed on a pilot plant scale with municipal excess sludge as an organic carbon source. System performance in PHA production was monitored over the three experimental periods characterised by the different C/N ratios. Preliminary results show that a lower C/N ratio decreased the PHA production (20, 24 and 26 % w/w of PHA produced, for COD/N ratios of 1, 2 and 3.5 g COD/g N respectively). Metataxonomic analysis revealed an increase of PHA producers’ microorganisms at the ratio of 3.5 g COD/g N. The insights gained from the study demonstrate the negative effect of low C/N ratios on PHA production. Moreover, the metataxonomic proved to be useful in highlighting relationships between operating conditions, microbiota, and the achievement of specific outputs.
Ylenia Di Leto¹, F.C.C. (2024). The role of C/N ratio on the modulation of sewage sludge microbiota for producing polyhydroxyalkanoates. In Resource Recovery from Wastewater Treatment (pp. 438-442) [10.1007/978-3-031-63353-9_74].
The role of C/N ratio on the modulation of sewage sludge microbiota for producing polyhydroxyalkanoates
Ylenia Di Leto¹
Primo
;Fanny Claire Capri¹;Antonio Mineo²;Giorgio Mannina²;Rosa Alduina¹ ³;Giuseppe Gallo¹ ³
2024-06-18
Abstract
Polyhydroxyalkanoates (PHA) can be generated by the products of an excess sewage sludge fermentation process. An efficient method reported is to enrich a PHA-producing community in an aerobic feast/anoxic famine enrichment strategy. This work evaluated the effect of different C/N feed ratios of 3.5, 2 and 1 g COD/g N. The study was executed on a pilot plant scale with municipal excess sludge as an organic carbon source. System performance in PHA production was monitored over the three experimental periods characterised by the different C/N ratios. Preliminary results show that a lower C/N ratio decreased the PHA production (20, 24 and 26 % w/w of PHA produced, for COD/N ratios of 1, 2 and 3.5 g COD/g N respectively). Metataxonomic analysis revealed an increase of PHA producers’ microorganisms at the ratio of 3.5 g COD/g N. The insights gained from the study demonstrate the negative effect of low C/N ratios on PHA production. Moreover, the metataxonomic proved to be useful in highlighting relationships between operating conditions, microbiota, and the achievement of specific outputs.
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